Multi-Lane Serial Data Analysis with SDAIII-CompleteLinQ

Compare eye, jitter and noise measurements on up to 4 lanes, simultaneously. Gain a complete understanding of sources of jitter and noise with a the industry's most complete serial data analysis package

Optical Modulation Analysis with Optical-LinQ & IQScope-RT

Make undistorted measurements with up to 70 GHz of coherent optical receiver bandwidth with the Coherent Solutions IQScope-RT and LabMaster 10-65Zi-a oscilloscope. Use the Optical-LinQ software for for complete constellation analysis and OMA measurements such as EVM.

10 ps/div-256 s/div (maximum capture time is based on minimum sample rate of 200kS/s and installed memory).

Канал горизонтального отклонения

Опорный генератор (ОГ)

Internal timebase with 10 GHz clock frequency common to all input channels. Single, distributed 10 GHz clock for all channels ensures precise synchronization with timing accuracy between all channels identical to that provided within a single, conventional oscilloscope package.

Временной сдвиг между каналами

10 ps/div-256 s/div (maximum capture time is based on minimum sample rate of 200kS/s and installed memory).

Data Storage Software

Other Software Options

Signal Analysis (VSA) options provide an extensive toolset for demodulation and analysis of RF and IQ modulated signals. These tools provide deep insight into advanced signal types with maximum measurement flexibility and sophisticated signal visualization. The intuitive user interface is easy to set up and allows for user customization to meet the needs of even the most complex signals.

Spectrum analyzer style user interface with controls for start/stop frequency or center frequency and span. Utilize up to 20 markers to automatically identify harmonics and quickly analyze frequency content. Monitor how the spectrum changes over time by viewing the spectrogram in 2D or 3D.

The world leading OpticalLinQ software for analysis of optically modulated signals can now be used with any coherent optical receiver (including the Teledyne LeCroy IQS series of receivers). Users can select a wide variety of analysis views and parametric measurements to gain a complete understanding of their optical signal path.

Understanding an electronic design's susceptibility to Electronmagnetic (EM) discharge is an important element of validation. Whether fast one time event transients or repetitive bursts EM can introduce unexpected events in the circuit performance. Teledyne LeCroy Oscilloscopes offer high sample rates and measurements tailored specifically to this task. Whether one pulse or billions of measurements engineers gain insight into their device and system suseptibility.

Serial Data Analysis

By using VirtualProbe, you can understand the characteristics of signals where a physical probe cannot be placed, such as inside of a package or at the end of an interconnect that doesn't physically exist. You can choose to remove effects caused by elements such as fixtures that are not be present in a production configuration, and also add the effects of a device that is to be included but for which only an S-parameter model exists. Use in conjunction with SDAIII products to complete your serial data analysis solution set.

Serial Data Compliance

The QPHY-MIPI-MPHY Test Solution provides automated control of Teledyne LeCroy oscilloscopes for performing transmitter physical layer tests as described by the MIPI Alliance Specification for M-PHY version 3.0.

The QPHY-DisplayPort software option provides an automated test environment for running all of the normative real-time oscilloscope tests for sources in accordance with Version 1.2b of the Video Electronics Standards Association (VESA) DisplayPort PHY Compliance Test Specification, as well as tests for HBR3 signals at 8.1 Gbps.

DDR4 is an evolutionary upgrade from DDR3. It introduces data transfer rates which are nearly double the DDR3 transfer rates, ranging from 1.6 GT/s up to 3.2 GT/s. DDR4's higher transfer rates and lower operating voltage have driven new test methodologies and test requirements which were not previously required for DDR3 in order to ensure proper signal fidelity. QPHY-DDR4 has a full suite of Clock, Electrical, and Timing tests as specified by the JEDEC Specification which will aid in DDR4 design validation.

The Teledyne LeCroy QPHY-DDR3 Test Solution is the best way to characterize DDR3, DDR3L, and LPDDR3 memory interfaces. Capable of performing measurements on 800 MT/s, 1066 MT/s, 1333 MT/s, 1600 MT/s, 1866 MT/s, 2133 MT/s and custom speed grades, QPHY-DDR3 has a full suite of Clock, Electrical, and Timing tests as specified by the JEDEC Specification.

The Teledyne LeCroy QPHY-10GBase-KR solution automates testing for 10Gigabite Ethernet Copper Backplane base on the IEEE 802.3ap specifications. The test framework simplifies the test setup and execution of generic and common test requirements such as jitter separation, rise/fall time and transmitter equalization parameters. The guided wizard prompts the user to for specification required patterns and takes the measurements accordingly. The test report includes the test results pass/fail summary, margins and limits, as well as waveforms and measurements used during the test process.

Digital Filtering Software

Jitter Analysis Software

Validating system jitter performance and analyzing systems with high jitter levels comprises a significant portion of a system engineer's test and validation time. JITKIT makes it simple and easy to understand the basic system jitter performance of clock signals and clock-data activities, including period, half period, cyclecycle, skew, amplitude, differential voltage crossing, slew rate, and a wide variety of other common jitter measurements.

Serial Trigger and Decode

The USB 3.0 decode option for Teledyne LeCroy oscilloscopes provides link layer decode information annotated on the USB 3.0 physical layer waveform. This provides the ability to view protocol traffic on the oscilloscope and verify that the link is alive and transmitting properly. It also aids in debugging problems that are not solely analog or digital in nature, such as interoperability issues, uncertain error causes, and physical layer issues not evident with a Protocol Analyzer.

The MIPI UniPro Protocol Decoder analyzes acquired M-PHY analog waveforms and provides insight into multiple levels of UniPro protocol information. Data and Control frames are presented in an intuitive table format, where selecting a frame expands its content to a color-coded symbolic level, simultaneously creating a zoom. Decode annotation information is displayed on the physical layer waveform for a quick reference.

The MIPI System Power Management Interface (SPMI) decoder provides a fast and easy way to understand and correlate SPMI bus traffic to DC power rails and power management IC (PMIC) operations in mobile, handheld, and battery-powered embedded systems.

The SpaceWire decode adds a unique set of tools to your Teledyne LeCroy oscilloscope that simplifies the design, debug, and maintenance of SpaceWire systems. The high speed SpaceWire data stream is annotated directly on the physical layer waveforms. Various sections of the protocol are color-coded to make it easy to understand the protocol traffic. The decoder provides an interactive table, search, and zoom to make debugging fast and effective.

The SASbus D decode annotation option is available for most Teledyne LeCroy oscilloscopes. It permits link and data layer decoding of 1.5, 3, 6, or 12 Gb/s SAS physical layer signals. Decode information is annotated on the physical layer waveform. Various sections of the protocol are color-coded to make it easy to understand the protocol traffic.

Manchester coding is a line code in which the encoding of each data bit has at least one transition and 1s and 0s have equal bit width and therefore has no DC component. Manchester signals are self-clocking, which means that a clock signal can be recovered from the encoded data. Manchester Configurable protocol decoder enables grouping bits using various combinations of bit rate, polarity, idle condition, time out and more to decipherable messages. It allows decode of various protocols developed using Manchester encoding scheme.

The MIPI M-PHY and D-PHY Decode and Physical Layer Test is the ideal tool for powerful system level protocol debug as well as problem solving for signal quality issues. The D-PHY decode solution adds a unique set of tools to your oscilloscope, simplifying how you design and debug MIPI D-PHY, CSI-2 and DSI signals.

The DigRF 3G and v4 decode are the ideal tools for powerful system level protocol debug as well as problem solving for signal quality issues. The DigRF decodes add a unique set of tools to your oscilloscope, simplifying how you design and debug MIPI digital RF systems.

The DigRF 3G decode is the ideal tool for powerful system level protocol debug as well as problem solving for signal quality issues. The DigRF 3G decode adds a unique set of tools to your oscilloscope, simplifying how you design and debug MIPI digital RF systems.

The MIPI M-PHY and D-PHY Decode and Physical Layer Test is the ideal tool for powerful system level protocol debug as well as problem solving for signal quality issues. The D-PHY decode solution adds a unique set of tools to your oscilloscope, simplifying how you design and debug MIPI D-PHY, CSI-2 and DSI signals.

The MIPI D-PHY decode is the ideal tool for powerful system level protocol debug as well as problem solving for signal quality issues. The D-PHY decode solution adds a unique set of tools to your oscilloscope, simplifying how you design and debug MIPI D-PHY, CSI-2 and DSI signals.

The 10-Gigabit Ethernet decode option for Teledyne LeCroy oscilloscopes provides link layer decode information annotated on the 10-Gigabit physical layer waveform. This provides the ability to view protocol traffic on the oscilloscope. It also aids in debugging problems that are not solely analog or digital in nature - issues not evident with a Protocol Analyzer

The Media Data Input/Output (MDIO) decoder provides a fast and easy way to understand and correlate MDIO bus traffic to the management of PHYs or physical layer devices in media access controllers (MACs).

MDIO Decode

Rapidly pinpoint and debug problems with NRZ, 8b/10b and 64b/66b signals using the high-speed serial trigger and decode options. Hardware trigger products with maximum bitrates of 6.5 and 14.1 Gbps are available for WaveMaster 8 Zi-A, LabMaster 9 Zi-A and LabMaster 10 Zi series oscilloscopes, and include 8b/10b and 64b/66b decoders.

Serial Data Compliance

The QPHY-DisplayPort software option provides an automated test environment for running all of the normative real-time oscilloscope tests for sources in accordance with Version 1.2b of the Video Electronics Standards Association (VESA) DisplayPort PHY Compliance Test Specification, as well as tests for HBR3 signals at 8.1 Gbps.